Deleting PTEN, but not SOCS3 or myelin inhibitors, robustly boosts BRAF-elicited intraspinal regeneration of peripheral sensory axons.

Primary sensory axons fail to regenerate into the spinal cord following dorsal root injury leading to permanent sensory deficits. Re-entry is prevented at the dorsal root entry zone (DREZ), the CNS-PNS interface. Current approaches for promoting DR regeneration across the DREZ have had some success, but sustained, long-distance regeneration, particularly of large-diameter myelinated axons, still remains a formidable challenge. We have previously shown that induced expression of constitutively active B-RAF (kaBRAF) enhanced the regenerative competence of injured DRG neurons in adult mice. In this study, we investigated whether robust intraspinal regeneration can be achieved after a cervical DR injury by selective expression of kaBRAF alone or in combination with deletion of the myelin-associated inhibitors or neuron-intrinsic growth suppressors (PTEN or SOCS3). We found that kaBRAF promoted some axon regeneration across the DREZ but did not produce significant functional recovery by two months. Supplementary deletion of Nogo, MAG, and OMgp only modestly improved kaBRAF-induced regeneration. Deletion of PTEN or SOCS3 individually or in combination failed to promote any growth across the DREZ. In marked contrast, simultaneous deletion of PTEN, but not SOCS3, dramatically enhanced kaBRAF-mediated regeneration enabling many more axons to penetrate the DREZ and grow deep into the spinal cord. This study shows that dual activation of BRAF-MEK-ERK and PI3K-Akt-mTOR signaling is an effective strategy to stimulate robust intraspinal DR regeneration.